E-Thesis 267 views
High performance activated carbon anodes for supercapacitors for energy storage applications / THOMAS FONE
Swansea University Author: THOMAS FONE
Abstract
This work presents the optimisation of an activated carbon ink using Ethyl Cellulose as a binder for application as electrodes in supercapacitors. Effect of variation in the concentration of Ethyl Cellulose binder was explored adopting a commercially available Activated carbon as reference. The resu...
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Swansea, Wales, UK
2023
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| Institution: | Swansea University |
| Degree level: | Master of Research |
| Degree name: | MSc by Research |
| Supervisor: | Deganello, Davide |
| URI: | https://cronfa.swan.ac.uk/Record/cronfa63240 |
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| spelling |
v2 63240 2023-04-25 High performance activated carbon anodes for supercapacitors for energy storage applications 507ba194ed1e553067dd8615b4324239 THOMAS FONE THOMAS FONE true false 2023-04-25 This work presents the optimisation of an activated carbon ink using Ethyl Cellulose as a binder for application as electrodes in supercapacitors. Effect of variation in the concentration of Ethyl Cellulose binder was explored adopting a commercially available Activated carbon as reference. The result was that the 10% EC concentration led to the best performance compared to the 20% and 5% EC inks, with a specific capacitance of 62.3F/g at 1.4A/g. It was hypothesised that the 20% EC ink had too much binder, potentially clogging up the pores in the activated carbon, while the 5% EC ink did not have enough binder, causing decohesion of the ink from the substrate, which severely limited the performance of the electrode. As part of the work, a special carbon provided by the sponsoring company was also tested using the same 10% EC recipe only substituting the new carbon instead of the commercial one. Particle size analysis of this carbon showed that the particles had a larger disparity of sizes compared to the commercial activated carbon. This new carbon gave a better result of 82.7F/g at 1.4A/g even with the particle size disparity. E-Thesis Swansea, Wales, UK Supercapacitor, Ultracapacitor, Activated Carbon 17 3 2023 2023-03-17 COLLEGE NANME COLLEGE CODE Swansea University Deganello, Davide Master of Research MSc by Research EPSRC, Enserv Power EPSRC, Enserv Power 2023-10-27T15:14:02.0313877 2023-04-25T14:46:27.4508366 Faculty of Science and Engineering School of Aerospace, Civil, Electrical, General and Mechanical Engineering - Mechanical Engineering THOMAS FONE 1 Under embargo Under embargo 2023-04-25T14:54:00.1371928 Output 4861926 application/pdf E-Thesis true 2026-03-17T00:00:00.0000000 Copyright: The Author, Thomas M. Fone, 2023 true eng |
| title |
High performance activated carbon anodes for supercapacitors for energy storage applications |
| spellingShingle |
High performance activated carbon anodes for supercapacitors for energy storage applications THOMAS FONE |
| title_short |
High performance activated carbon anodes for supercapacitors for energy storage applications |
| title_full |
High performance activated carbon anodes for supercapacitors for energy storage applications |
| title_fullStr |
High performance activated carbon anodes for supercapacitors for energy storage applications |
| title_full_unstemmed |
High performance activated carbon anodes for supercapacitors for energy storage applications |
| title_sort |
High performance activated carbon anodes for supercapacitors for energy storage applications |
| author_id_str_mv |
507ba194ed1e553067dd8615b4324239 |
| author_id_fullname_str_mv |
507ba194ed1e553067dd8615b4324239_***_THOMAS FONE |
| author |
THOMAS FONE |
| author2 |
THOMAS FONE |
| format |
E-Thesis |
| publishDate |
2023 |
| institution |
Swansea University |
| college_str |
Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
| department_str |
School of Aerospace, Civil, Electrical, General and Mechanical Engineering - Mechanical Engineering{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Aerospace, Civil, Electrical, General and Mechanical Engineering - Mechanical Engineering |
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| description |
This work presents the optimisation of an activated carbon ink using Ethyl Cellulose as a binder for application as electrodes in supercapacitors. Effect of variation in the concentration of Ethyl Cellulose binder was explored adopting a commercially available Activated carbon as reference. The result was that the 10% EC concentration led to the best performance compared to the 20% and 5% EC inks, with a specific capacitance of 62.3F/g at 1.4A/g. It was hypothesised that the 20% EC ink had too much binder, potentially clogging up the pores in the activated carbon, while the 5% EC ink did not have enough binder, causing decohesion of the ink from the substrate, which severely limited the performance of the electrode. As part of the work, a special carbon provided by the sponsoring company was also tested using the same 10% EC recipe only substituting the new carbon instead of the commercial one. Particle size analysis of this carbon showed that the particles had a larger disparity of sizes compared to the commercial activated carbon. This new carbon gave a better result of 82.7F/g at 1.4A/g even with the particle size disparity. |
| published_date |
2023-03-17T15:14:00Z |
| _version_ |
1780918298140999680 |
| score |
11.014067 |